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Zentralbl Hyg Umweltmed

Title:		[Sick building syndrome and HVAC system: MVOC from air filters]
Author(s):		Schleibinger HW; Wurm D; Moritz M; Bock R; Ruden H;
Address:		Institut fur Hygiene der FU Berlin
Journal Title:		Zentralbl Hyg Umweltmed
Year:		1997
Volume:		200
Issue:		2-Mar
Page Number:		137 - 151
DOI:
ISSN/ISBN:		0934-8859 (Print) 0934-8859 (Linking)
Abstract:		"Growth and emissions of volatile metabolites of microorganisms on air filters are suspected to contribute to health complaints in ventilated rooms. To prove the microbiological production of volatile organic compounds (MVOC), concentrations of aldehydes and ketones were determined in two large HVAC systems. The in situ derivated aldehydes and ketones (as 2,4-dinitrophenyl-hydrazones) were analysed by HPLC and UV detection. The detection limit of each compound was 1 ppb (margin of error < 10%). Field measurements were carried out before and after the prefilters and the main filters, respectively, to investigate whether aldehydes and ketones increase in concentration after filters of HVAC systems. First results show that the compounds formaldehyde, acetaldehyde and acetone could be detected before and after the filters. The concentrations of these VOC after the filters were significantly increased--as a mean over twenty measurements--, especially as far as filters made of glass fibre are concerned. However the found concentrations were low and mostly comparable to outdoor findings. In simultaneous laboratory experiments pieces of used filter material of one HVAC system and unused filter pieces (for blank values) were examined in small incubation chambers to investigate the possible production of MVOC. For the incubation a temperature of 20 degrees C and a relative humidity of 95% was chosen. In these experiments an almost identical spectrum of compounds (formaldehyde and acetone) was found as in the field measurements. The concentrations of these compounds were higher in the chambers with the used filter pieces. The concentration of acetone ranged up to almost 12 mg/m3.--As our field experiments correspond with our laboratory experiments, we assume that the microbial production of volatile organic compounds in HVAC systems under operating conditions is possible"
Keywords:		Air Microbiology Aldehydes/analysis Filtration/instrumentation/*methods Fungi/*isolation & purification Humans Ketones/analysis Sick Building Syndrome/*prevention & control Ventilation/instrumentation/*methods;
Notes:		"MedlineSchleibinger, H W Wurm, D Moritz, M Bock, R Ruden, H ger English Abstract Germany 1997/08/01 Zentralbl Hyg Umweltmed. 1997 Aug; 200(2-3):137-51"